/* * Text analyzing tests * * Copyright 2012 Nikolay Sivov for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #define COBJMACROS #include #include "initguid.h" #include "windows.h" #include "dwrite.h" #include "wine/test.h" static IDWriteFactory *factory; enum analysis_kind { ScriptAnalysis, LastKind }; static const char *get_analysis_kind_name(enum analysis_kind kind) { switch (kind) { case ScriptAnalysis: return "ScriptAnalysis"; default: return "unknown"; } } struct script_analysis { UINT32 pos; UINT32 len; DWRITE_SCRIPT_SHAPES shapes; }; struct call_entry { enum analysis_kind kind; struct script_analysis sa; }; struct testcontext { enum analysis_kind kind; BOOL todo; int *failcount; const char *file; int line; }; struct call_sequence { int count; int size; struct call_entry *sequence; }; #define NUM_CALL_SEQUENCES 1 #define ANALYZER_ID 0 static struct call_sequence *sequences[NUM_CALL_SEQUENCES]; static struct call_sequence *expected_seq[1]; static void add_call(struct call_sequence **seq, int sequence_index, const struct call_entry *call) { struct call_sequence *call_seq = seq[sequence_index]; if (!call_seq->sequence) { call_seq->size = 10; call_seq->sequence = HeapAlloc(GetProcessHeap(), 0, call_seq->size * sizeof (struct call_entry)); } if (call_seq->count == call_seq->size) { call_seq->size *= 2; call_seq->sequence = HeapReAlloc(GetProcessHeap(), 0, call_seq->sequence, call_seq->size * sizeof (struct call_entry)); } assert(call_seq->sequence); call_seq->sequence[call_seq->count++] = *call; } static inline void flush_sequence(struct call_sequence **seg, int sequence_index) { struct call_sequence *call_seq = seg[sequence_index]; HeapFree(GetProcessHeap(), 0, call_seq->sequence); call_seq->sequence = NULL; call_seq->count = call_seq->size = 0; } static inline void flush_sequences(struct call_sequence **seq, int n) { int i; for (i = 0; i < n; i++) flush_sequence(seq, i); } static void init_call_sequences(struct call_sequence **seq, int n) { int i; for (i = 0; i < n; i++) seq[i] = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(struct call_sequence)); } static void test_uint(UINT32 actual, UINT32 expected, const char *name, const struct testcontext *ctxt) { if (expected != actual && ctxt->todo) { (*ctxt->failcount)++; ok_(ctxt->file, ctxt->line) (0, "%s: \"%s\" expecting %u, got %u\n", get_analysis_kind_name(ctxt->kind), name, expected, actual); } else ok_(ctxt->file, ctxt->line) (expected == actual, "%s: \"%s\" expecting %u, got %u\n", get_analysis_kind_name(ctxt->kind), name, expected, actual); } static void ok_sequence_(struct call_sequence **seq, int sequence_index, const struct call_entry *expected, const char *context, BOOL todo, const char *file, int line) { struct call_sequence *call_seq = seq[sequence_index]; static const struct call_entry end_of_sequence = { LastKind }; const struct call_entry *actual, *sequence; int failcount = 0; struct testcontext ctxt; add_call(seq, sequence_index, &end_of_sequence); sequence = call_seq->sequence; actual = sequence; ctxt.failcount = &failcount; ctxt.todo = todo; ctxt.file = file; ctxt.line = line; while (expected->kind != LastKind && actual->kind != LastKind) { if (expected->kind == actual->kind) { ctxt.kind = expected->kind; switch (actual->kind) { case ScriptAnalysis: { const struct script_analysis *sa_act = &actual->sa; const struct script_analysis *sa_exp = &expected->sa; test_uint(sa_act->pos, sa_exp->pos, "position", &ctxt); test_uint(sa_act->len, sa_exp->len, "length", &ctxt); test_uint(sa_act->shapes, sa_exp->shapes, "shapes", &ctxt); break; } default: ok(0, "%s: callback not handled, %s\n", context, get_analysis_kind_name(actual->kind)); } expected++; actual++; } else if (todo) { failcount++; todo_wine { ok_(file, line) (0, "%s: call %s was expected, but got call %s instead\n", context, get_analysis_kind_name(expected->kind), get_analysis_kind_name(actual->kind)); } flush_sequence(seq, sequence_index); return; } else { ok_(file, line) (0, "%s: call %s was expected, but got call %s instead\n", context, get_analysis_kind_name(expected->kind), get_analysis_kind_name(actual->kind)); expected++; actual++; } } if (todo) { todo_wine { if (expected->kind != LastKind || actual->kind != LastKind) { failcount++; ok_(file, line) (0, "%s: the call sequence is not complete: expected %s - actual %s\n", context, get_analysis_kind_name(expected->kind), get_analysis_kind_name(actual->kind)); } } } else if (expected->kind != LastKind || actual->kind != LastKind) { ok_(file, line) (0, "%s: the call sequence is not complete: expected %s - actual %s\n", context, get_analysis_kind_name(expected->kind), get_analysis_kind_name(actual->kind)); } if (todo && !failcount) /* succeeded yet marked todo */ { todo_wine { ok_(file, line)(1, "%s: marked \"todo_wine\" but succeeds\n", context); } } flush_sequence(seq, sequence_index); } #define ok_sequence(seq, index, exp, contx, todo) \ ok_sequence_(seq, index, (exp), (contx), (todo), __FILE__, __LINE__) static HRESULT WINAPI analysissink_QueryInterface(IDWriteTextAnalysisSink *iface, REFIID riid, void **obj) { if (IsEqualIID(riid, &IID_IDWriteTextAnalysisSink) || IsEqualIID(riid, &IID_IUnknown)) { *obj = iface; return S_OK; } *obj = NULL; return E_NOINTERFACE; } static ULONG WINAPI analysissink_AddRef(IDWriteTextAnalysisSink *iface) { return 2; } static ULONG WINAPI analysissink_Release(IDWriteTextAnalysisSink *iface) { return 1; } static HRESULT WINAPI analysissink_SetScriptAnalysis(IDWriteTextAnalysisSink *iface, UINT32 position, UINT32 length, DWRITE_SCRIPT_ANALYSIS const* sa) { struct call_entry entry; entry.kind = ScriptAnalysis; entry.sa.pos = position; entry.sa.len = length; entry.sa.shapes = sa->shapes; add_call(sequences, ANALYZER_ID, &entry); return S_OK; } static HRESULT WINAPI analysissink_SetLineBreakpoints(IDWriteTextAnalysisSink *iface, UINT32 position, UINT32 length, DWRITE_LINE_BREAKPOINT const* breakpoints) { ok(0, "unexpected\n"); return E_NOTIMPL; } static HRESULT WINAPI analysissink_SetBidiLevel(IDWriteTextAnalysisSink *iface, UINT32 position, UINT32 length, UINT8 explicitLevel, UINT8 resolvedLevel) { ok(0, "unexpected\n"); return E_NOTIMPL; } static HRESULT WINAPI analysissink_SetNumberSubstitution(IDWriteTextAnalysisSink *iface, UINT32 position, UINT32 length, IDWriteNumberSubstitution* substitution) { ok(0, "unexpected\n"); return E_NOTIMPL; } static IDWriteTextAnalysisSinkVtbl analysissinkvtbl = { analysissink_QueryInterface, analysissink_AddRef, analysissink_Release, analysissink_SetScriptAnalysis, analysissink_SetLineBreakpoints, analysissink_SetBidiLevel, analysissink_SetNumberSubstitution }; static IDWriteTextAnalysisSink analysissink = { &analysissinkvtbl }; static HRESULT WINAPI analysissource_QueryInterface(IDWriteTextAnalysisSource *iface, REFIID riid, void **obj) { ok(0, "QueryInterface not expected\n"); return E_NOTIMPL; } static ULONG WINAPI analysissource_AddRef(IDWriteTextAnalysisSource *iface) { ok(0, "AddRef not expected\n"); return 2; } static ULONG WINAPI analysissource_Release(IDWriteTextAnalysisSource *iface) { ok(0, "Release not expected\n"); return 1; } static const WCHAR *g_source; static HRESULT WINAPI analysissource_GetTextAtPosition(IDWriteTextAnalysisSource *iface, UINT32 position, WCHAR const** text, UINT32* text_len) { if (position >= lstrlenW(g_source)) { *text = NULL; *text_len = 0; } else { *text = &g_source[position]; *text_len = lstrlenW(g_source) - position; } return S_OK; } static HRESULT WINAPI analysissource_GetTextBeforePosition(IDWriteTextAnalysisSource *iface, UINT32 position, WCHAR const** text, UINT32* text_len) { ok(0, "unexpected\n"); return E_NOTIMPL; } static DWRITE_READING_DIRECTION WINAPI analysissource_GetParagraphReadingDirection( IDWriteTextAnalysisSource *iface) { ok(0, "unexpected\n"); return DWRITE_READING_DIRECTION_RIGHT_TO_LEFT; } static HRESULT WINAPI analysissource_GetLocaleName(IDWriteTextAnalysisSource *iface, UINT32 position, UINT32* text_len, WCHAR const** locale) { *locale = NULL; *text_len = 0; return S_OK; } static HRESULT WINAPI analysissource_GetNumberSubstitution(IDWriteTextAnalysisSource *iface, UINT32 position, UINT32* text_len, IDWriteNumberSubstitution **substitution) { ok(0, "unexpected\n"); return E_NOTIMPL; } static IDWriteTextAnalysisSourceVtbl analysissourcevtbl = { analysissource_QueryInterface, analysissource_AddRef, analysissource_Release, analysissource_GetTextAtPosition, analysissource_GetTextBeforePosition, analysissource_GetParagraphReadingDirection, analysissource_GetLocaleName, analysissource_GetNumberSubstitution }; static IDWriteTextAnalysisSource analysissource = { &analysissourcevtbl }; struct sa_test { const WCHAR string[50]; int item_count; struct script_analysis sa[10]; }; static struct sa_test sa_tests[] = { { /* just 1 char string */ {'t',0}, 1, { { 0, 1, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { {'t','e','s','t',0}, 1, { { 0, 4, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { {' ',' ',' ',' ','!','$','[','^','{','~',0}, 1, { { 0, 10, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { {' ',' ',' ','1','2',' ',0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* digits only */ {'1','2',0}, 1, { { 0, 2, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Arabic */ {0x064a,0x064f,0x0633,0x0627,0x0648,0x0650,0x064a,0}, 1, { { 0, 7, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Arabic */ {0x0627,0x0644,0x0635,0x0651,0x0650,0x062d,0x0629,0x064f,' ',0x062a,0x064e, 0x0627,0x062c,0x064c,' ',0x0639,0x064e,0x0644,0x0649,' ', 0x0631,0x064f,0x0624,0x0648,0x0633,0x0650,' ',0x0627,0x0644, 0x0623,0x0635,0x0650,0x062d,0x0651,0x064e,0x0627,0x0621,0x0650,0x06f0,0x06f5,0}, 1, { { 0, 40, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Arabic, Latin */ {'1','2','3','-','5','2',0x064a,0x064f,0x0633,0x0627,0x0648,0x0650,0x064a,'7','1','.',0}, 1, { { 0, 16, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Arabic, English */ {'A','B','C','-','D','E','F',' ',0x0621,0x0623,0x0624,0}, 2, { { 0, 8, DWRITE_SCRIPT_SHAPES_DEFAULT }, { 8, 3, DWRITE_SCRIPT_SHAPES_DEFAULT }, } }, { /* leading space, Arabic, English */ {' ',0x0621,0x0623,0x0624,'A','B','C','-','D','E','F',0}, 2, { { 0, 4, DWRITE_SCRIPT_SHAPES_DEFAULT }, { 4, 7, DWRITE_SCRIPT_SHAPES_DEFAULT }, } }, { /* English, Arabic, trailing space */ {'A','B','C','-','D','E','F',0x0621,0x0623,0x0624,' ',0}, 2, { { 0, 7, DWRITE_SCRIPT_SHAPES_DEFAULT }, { 7, 4, DWRITE_SCRIPT_SHAPES_DEFAULT }, } }, { /* C1 Controls, Latin-1 Supplement */ {0x80,0x90,0x9f,0xa0,0xc0,0xb8,0xbf,0xc0,0xff,0}, 2, { { 0, 3, DWRITE_SCRIPT_SHAPES_NO_VISUAL }, { 3, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }, } }, { /* Latin Extended-A */ {0x100,0x120,0x130,0x140,0x150,0x160,0x170,0x17f,0}, 1, { { 0, 8, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Latin Extended-B */ {0x180,0x190,0x1bf,0x1c0,0x1c3,0x1c4,0x1cc,0x1dc,0x1ff,0x217,0x21b,0x24f,0}, 1, { { 0, 12, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* IPA Extensions */ {0x250,0x260,0x270,0x290,0x2af,0}, 1, { { 0, 5, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Spacing Modifier Letters */ {0x2b0,0x2ba,0x2d7,0x2dd,0x2ef,0x2ff,0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Combining Diacritical Marks */ {0x300,0x320,0x340,0x345,0x350,0x36f,0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Greek and Coptic */ {0x370,0x388,0x3d8,0x3e1,0x3e2,0x3fa,0x3ff,0}, 3, { { 0, 4, DWRITE_SCRIPT_SHAPES_DEFAULT }, { 4, 1, DWRITE_SCRIPT_SHAPES_DEFAULT }, { 5, 2, DWRITE_SCRIPT_SHAPES_DEFAULT } } }, { /* Cyrillic and Cyrillic Supplement */ {0x400,0x40f,0x410,0x44f,0x450,0x45f,0x460,0x481,0x48a,0x4f0,0x4fa,0x4ff,0x500,0x510,0x520,0}, 1, { { 0, 15, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Armenian */ {0x531,0x540,0x559,0x55f,0x570,0x589,0x58a,0}, 1, { { 0, 7, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Hebrew */ {0x5e9,0x5dc,0x5d5,0x5dd,0}, 1, { { 0, 4, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Latin, Hebrew, Latin */ {'p','a','r','t',' ','o','n','e',' ',0x5d7,0x5dc,0x5e7,' ',0x5e9,0x5ea,0x5d9,0x5d9,0x5dd,' ','p','a','r','t',' ','t','h','r','e','e',0}, 3, { { 0, 9, DWRITE_SCRIPT_SHAPES_DEFAULT }, { 9, 10, DWRITE_SCRIPT_SHAPES_DEFAULT }, { 19, 10, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Syriac */ {0x710,0x712,0x712,0x714,'.',0}, 1, { { 0, 5, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Arabic Supplement */ {0x750,0x760,0x76d,'.',0}, 1, { { 0, 4, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Thaana */ {0x780,0x78e,0x798,0x7a6,0x7b0,'.',0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* N'Ko */ {0x7c0,0x7ca,0x7e8,0x7eb,0x7f6,'.',0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Thaana */ {0x780,0x798,0x7a5,0x7a6,0x7b0,'.',0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Devanagari */ {0x926,0x947,0x935,0x928,0x93e,0x917,0x930,0x940,'.',0}, 1, { { 0, 9, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Bengali */ {0x9ac,0x9be,0x982,0x9b2,0x9be,'.',0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Gurmukhi */ {0xa17,0xa41,0xa30,0xa2e,0xa41,0xa16,0xa40,'.',0}, 1, { { 0, 8, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Gujarati */ {0xa97,0xac1,0xa9c,0xab0,0xabe,0xaa4,0xac0,'.',0}, 1, { { 0, 8, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Oriya */ {0xb13,0xb21,0xb3c,0xb3f,0xb06,'.',0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Tamil */ {0xba4,0xbae,0xbbf,0xbb4,0xbcd,'.',0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Telugu */ {0xc24,0xc46,0xc32,0xc41,0xc17,0xc41,'.',0}, 1, { { 0, 7, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Kannada */ {0xc95,0xca8,0xccd,0xca8,0xca1,'.',0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Malayalam */ {0xd2e,0xd32,0xd2f,0xd3e,0xd33,0xd02,'.',0}, 1, { { 0, 7, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Sinhala */ {0xd82,0xd85,0xd9a,0xdcf,'.',0}, 1, { { 0, 5, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Thai */ {0x0e04,0x0e27,0x0e32,0x0e21,0x0e1e,0x0e22,0x0e32,0x0e22,0x0e32,0x0e21, 0x0e2d,0x0e22,0x0e39,0x0e48,0x0e17,0x0e35,0x0e48,0x0e44,0x0e2b,0x0e19, 0x0e04,0x0e27,0x0e32,0x0e21,0x0e2a, 0x0e33,0x0e40,0x0e23,0x0e47,0x0e08, 0x0e2d,0x0e22,0x0e39,0x0e48,0x0e17,0x0e35,0x0e48,0x0e19,0x0e31,0x0e48,0x0e19,'.',0}, 1, { { 0, 42, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Lao */ {0xead,0xeb1,0xe81,0xeaa,0xead,0xe99,0xea5,0xeb2,0xea7,'.',0}, 1, { { 0, 10, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Tibetan */ {0xf04,0xf05,0xf0e,0x020,0xf51,0xf7c,0xf53,0xf0b,0xf5a,0xf53,0xf0b, 0xf51,0xf44,0xf0b,0xf54,0xf7c,0xf0d,'.',0}, 1, { { 0, 18, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Myanmar */ {0x1019,0x103c,0x1014,0x103a,0x1019,0x102c,0x1021,0x1000,0x1039,0x1001,0x101b,0x102c,'.',0}, 1, { { 0, 13, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Georgian */ {0x10a0,0x10d0,0x10da,0x10f1,0x10fb,'.',0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Hangul */ {0x1100,0x1110,0x1160,0x1170,0x11a8,'.',0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Ethiopic */ {0x130d,0x12d5,0x12dd,0}, 1, { { 0, 3, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Cherokee */ {0x13e3,0x13b3,0x13a9,0x0020,0x13a6,0x13ec,0x13c2,0x13af,0x13cd,0x13d7,0}, 1, { { 0, 10, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Canadian */ {0x1403,0x14c4,0x1483,0x144e,0x1450,0x1466,0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Ogham */ {0x169b,0x1691,0x168c,0x1690,0x168b,0x169c,0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Runic */ {0x16a0,0x16a1,0x16a2,0x16a3,0x16a4,0x16a5,0}, 1, { { 0, 6, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Khmer */ {0x1781,0x17c1,0x1798,0x179a,0x1797,0x17b6,0x179f,0x17b6,0x19e0,0}, 1, { { 0, 9, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Mongolian */ {0x182e,0x1823,0x1829,0x182d,0x1823,0x182f,0x0020,0x182a,0x1822,0x1834,0x1822,0x182d,0x180c,0}, 1, { { 0, 13, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Limbu */ {0x1900,0x1910,0x1920,0x1930,0}, 1, { { 0, 4, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Tai Le */ {0x1956,0x196d,0x1970,0x1956,0x196c,0x1973,0x1951,0x1968,0x1952,0x1970,0}, 1, { { 0, 10, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* New Tai Lue */ {0x1992,0x19c4,0}, 1, { { 0, 2, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Buginese */ {0x1a00,0x1a10,0}, 1, { { 0, 2, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Tai Tham */ {0x1a20,0x1a40,0x1a50,0}, 1, { { 0, 3, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Balinese */ {0x1b00,0x1b05,0x1b20,0}, 1, { { 0, 3, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Sundanese */ {0x1b80,0x1b85,0x1ba0,0}, 1, { { 0, 3, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Batak */ {0x1bc0,0x1be5,0x1bfc,0}, 1, { { 0, 3, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Lepcha */ {0x1c00,0x1c20,0x1c40,0}, 1, { { 0, 3, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Ol Chiki */ {0x1c50,0x1c5a,0x1c77,0}, 1, { { 0, 3, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Sundanese Supplement */ {0x1cc0,0x1cc5,0x1cc8,0}, 1, { { 0, 3, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, { /* Phonetic Extensions */ {0x1d00,0x1d40,0x1d70,0}, 1, { { 0, 3, DWRITE_SCRIPT_SHAPES_DEFAULT }} }, /* keep this as end marker */ { {0} } }; static void init_expected_sa(struct call_sequence **seq, const struct sa_test *test) { static const struct call_entry end_of_sequence = { LastKind }; int i; flush_sequence(seq, 0); /* add expected calls */ for (i = 0; i < test->item_count; i++) { struct call_entry call; call.kind = ScriptAnalysis; call.sa = test->sa[i]; add_call(seq, 0, &call); } /* and stop marker */ add_call(seq, 0, &end_of_sequence); } static void test_AnalyzeScript(void) { const struct sa_test *ptr = sa_tests; IDWriteTextAnalyzer *analyzer; HRESULT hr; hr = IDWriteFactory_CreateTextAnalyzer(factory, &analyzer); ok(hr == S_OK, "got 0x%08x\n", hr); while (*ptr->string) { g_source = ptr->string; init_expected_sa(expected_seq, ptr); hr = IDWriteTextAnalyzer_AnalyzeScript(analyzer, &analysissource, 0, lstrlenW(g_source), &analysissink); ok(hr == S_OK, "got 0x%08x\n", hr); ok_sequence(sequences, ANALYZER_ID, expected_seq[0]->sequence, "AnalyzeScript", FALSE); ptr++; } IDWriteTextAnalyzer_Release(analyzer); } START_TEST(analyzer) { HRESULT hr; hr = DWriteCreateFactory(DWRITE_FACTORY_TYPE_ISOLATED, &IID_IDWriteFactory, (IUnknown**)&factory); ok(hr == S_OK, "got 0x%08x\n", hr); if (hr != S_OK) { win_skip("failed to create factory\n"); return; } init_call_sequences(sequences, NUM_CALL_SEQUENCES); init_call_sequences(expected_seq, 1); test_AnalyzeScript(); IDWriteFactory_Release(factory); }